• Grey Cast Iron Pipes DN40-300 EN877 Made In China System 1
  • Grey Cast Iron Pipes DN40-300 EN877 Made In China System 2
  • Grey Cast Iron Pipes DN40-300 EN877 Made In China System 3
  • Grey Cast Iron Pipes DN40-300 EN877 Made In China System 4
Grey Cast Iron Pipes DN40-300 EN877 Made In China

Grey Cast Iron Pipes DN40-300 EN877 Made In China

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Loading Port:
Tianjin
Payment Terms:
TT OR LC
Min Order Qty:
100 m
Supply Capability:
10000 m/month

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1. hydraulic hose crimping machine in Electrical equipment&supplies

Specifications

High pressure hose to the winding wire matrix, skin coated refractory coating layer steel braided flame retardant layer 

APPLICATIONS:It is mainly used in high temperature surroundings and in conditions having heat source or heat radiation source,such as oil field well-control,metal smelt,and chemical industry.

Inner Diameter of Hose mm

Inside Diameter
(mm)

Reinforcement Diameter (mm)

Outside Diameter (mm)

Work Pressure (MPa)

Proof Pressure (MPa)

Minimum Explosive Pressure (MPa)

Minimum Bending Radius mm

Refractory °C

Mpa

Psi

MPa

Psi

Mpa

Psi

φ13(1/2")

13±0.5

22.2±0.8

44±1.06

43

6230

64.5

9435

86

12460

230

750

φ16(5/8")

16±0.5

26±0.8

47±1.5

38

5506

57

8259

76

11012

260

750

φ19(3/4")

19±0.5

30±0.8

52±1.5

34.5

4999

51.75

7498

69

9998

300

750

φ25(1")

25±0.8

36±0.8

59±1.5

27.5

3984

41.25

5976

55

7968

360

750

φ32(5/4")

32±0.8

44±0.8

69±2.0

20.5

2970

30.75

4455

41

5940

470

750

φ38(3/2")

38±1.0

76±2.0

87.2±5.1

17

2463

25.5

3694

34

4926

570

750

φ51(2")

51±1.0

91±2.0

100.7±5.1

17

2463

25.5

3695

34

4926

740

750

 

 

2. Antiflaming,fire-resistance rubber hose assembly

Specifications

High pressure hose to the winding wire matrix, skin coated refractory coating layer steel braided flame retardant layer and laye 

APPLICATIONS:It is mainly used in high temperature surroundings and in conditions having heat source or heat radiation source,such as oil field well-control,metal smelts,and chemical industry

Inner Diameter of Hose mm

Inside Diameter
(mm)

Reinforcement Diameter (mm)

Outside Diameter (mm)

Work Pressure (MPa)

Proof Pressure (MPa)

Minimum Explosive Pressure (MPa)

Minimum Bending Radius mm

Refractory °C

Mpa

Psi

MPa

Psi

Mpa

Psi

φ13(1/2")

13±0.5

22.2±0.8

44±1.06

43

6230

64.5

9435

86

12460

230

750

φ16(5/8")

16±0.5

26±0.8

47±1.5

38

5506

57

8259

76

11012

260

750

φ19(3/4")

19±0.5

30±0.8

52±1.5

34.5

4999

51.75

7498

69

9998

300

750

φ25(1")

25±0.8

36±0.8

59±1.5

27.5

3984

41.25

5976

55

7968

360

750

φ32(5/4")

32±0.8

44±0.8

69±2.0

20.5

2970

30.75

4455

41

5940

470

750

φ38(3/2")

38±1.0

76±2.0

87.2±5.1

17

2463

25.5

3694

34

4926

570

750

φ51(2")

51±1.0

91±2.0

100.7±5.1

17

2463

25.5

3695

34

4926

740

750

 

3. hydraulic hose Universal Wire-braided DN6

Quick Details

·         Place of Origin: Hebei, China (Mainland)

·         Brand Name: CMAX/CNBM

·         Model Number: GB/T3683-92

Packaging & Delivery

Packaging Details:

hydraulic hose is wrapped with fabrics

Delivery Detail:

80000meters/30days

Specifications

Universal Wire-braided Hydraulic Hose, Q/FLT01-AStandard GB/T3683-92, Temperature range: -40 to +100 

Universal Wire-braided Hydraulic Hose 
Q/FLT01-AStandard GB/T3683-92 
Tube: oil resistant synthetic rubber
Reinforcement: 1 W/B (one high tensile steel wire braid)
Cover: abrasion and weather resistant synthetic rubber 
Temperature range: -40 to +100.

 

4. Drilling Rubber Hose

Quick Details

·         Place of Origin: Hebei, China (Mainland)

·         Brand Name: CMAX/CNBM

Packaging & Delivery

Packaging Details:

Package: plastic films, then wrapped with fabrics

Delivery Detail:

According to the Quantity

Specifications

Drilling hose 

DN

 

Hose I.D

Wire O.D

 

Hose O.D

 

Working Pressure

Burst Pressure

Minimum Bend Radius

Weight

Length

inch

mm

mm

 

mm

MPa

psi

MPa

psi

mm

kg/m

metres

5

3/16

4.8

9.5

11.8

25.0

3630

100.0

14280

89

0.19

50/100

6

1/4

6.4

11.1

13.4

22.5

3270

90.0

12840

102

0.21

50/100

8

5/16

7.9

12.7

15.0

21.5

3120

85.0

12280

114

0.24

50/100

10

3/8

9.5

15.1

17.4

18.0

2615

72.0

10280

127

0.33

50/100

13

1/2

12.7

18.3

20.6

16.0

2320

64.0

9180

178

0.41

50/100

16

5/8

15.9

21.4

23.7

13.0

1890

52.0

7420

203

0.45

50/100

19

3/4

19.0

25.4

27.7

10.5

1530

42.0

6000

241

0.58

50/100

25

1

25.4

33.3

35.6

8.8

1280

35.0

5020

305

0.88

50

32

11/4

31.8

40.5

43.5

6.3

920

25.0

3600

419

1.23

20/40

38

11/2

38.1

46.8

50.6

5.0

730

20.0

2860

508

1.51

20/40

51

2

50.8

60.2

64.0

4.0

580

16.0

2280

 

5. Concrete pump rubber hose

Quick Details

·         Place of Origin: Hebei, China (Mainland)

·         Brand Name: CMAX/CNBM

Packaging & Delivery

Packaging Details:

Package: plastic films, then wrapped with fabrics

Delivery Detail:

According to the Quantity

Specifications

Specifications 
High Quality Concrete Pump Delivery Rubber Hose 
1.high quality 
2.ISO9001:2008 
3.reasonable price 

 

1. Material: Black NR and BR  synthetic rubber .

 

2.Reinforcement:Spiral textile/steel wire.

 

3. Widely application: Schwing PM SANY Zoomlion and other brand concrete pump trucks.

 

4.Cover:Abrasion resistantant,heat and ozone resistant.

 

5.Inside diameter:50-152mm

 

6.Working pressure:8.5 MPA.

 

7.Detailed specification:

No

Description

ID

OD

Plies

Working Pressure

Burst Pressure

Weight

1

2 inch

50mm

70mm

2

8.5MPA 1200PSI

20MPA 3000PSI

3.5kgs

2

2.5 inch

63mm

88mm

2

8.5MPA 1200PSI

20MPA 3000PSI

4.9kgs

3

3 inch

76mm

102mm

2

8.5MPA 1200PSI

20MPA 3000PSI

6.5kgs

4

4 inch

100mm

130mm

2

8.5MPA 1200PSI

20MPA 3000PSI

9.3kgs

5

5 inch

125mm

155mm

2 or 4

8.5MPA 1200PSI

20MPA 3000PSI

10.9kgs

6

6 inch

152mm

184mm

2

8.5MPA 1200PSI

20MPA 3000PSI

13.3kgs

 

Grey Cast Iron Pipes DN40-300 EN877 Made In China

Grey Cast Iron Pipes DN40-300 EN877 Made In China


Q: Are ductile iron pipes suitable for irrigation systems?
Yes, ductile iron pipes are suitable for irrigation systems. Ductile iron pipes are known for their durability, strength, and resilience, making them an ideal choice for various applications, including irrigation systems. These pipes can withstand high water pressure and are resistant to corrosion, which is essential for ensuring the efficiency and longevity of an irrigation system. Additionally, ductile iron pipes have a smooth interior surface, minimizing friction and allowing for efficient water flow, ensuring that the irrigation system operates optimally. Moreover, ductile iron pipes have a long lifespan, reducing the need for frequent replacements and maintenance, making them a cost-effective option for irrigation systems. Overall, due to their durability, strength, corrosion resistance, and efficient water flow, ductile iron pipes are highly suitable for use in irrigation systems.
Q: Can ductile iron pipes be used for irrigation canal lining?
Yes, ductile iron pipes can be used for irrigation canal lining. Ductile iron pipes are known for their strength, durability, and resistance to external pressure and impact. These qualities make them suitable for use in irrigation canal lining, as they can withstand the harsh conditions of the environment such as high water pressure, soil movement, and exposure to chemicals and corrosive elements. Ductile iron pipes also have a smooth interior surface, which allows for efficient water flow and reduces the risk of clogging or sediment buildup. This is important for irrigation canals, as it ensures a continuous supply of water to the crops or plants being irrigated. Additionally, ductile iron pipes are highly resistant to damage from external factors such as roots, rocks, or other objects that may come into contact with the canal lining. This helps to minimize the risk of leaks or breaks in the irrigation system, ensuring a reliable and efficient irrigation process. It is worth noting that the selection of ductile iron pipes for irrigation canal lining should take into account factors such as the size and capacity of the canal, the water pressure requirements, and the specific conditions of the irrigation project. Consulting with a professional engineer or irrigation specialist can help determine the most suitable materials for the specific requirements of the project.
Q: Can ductile iron pipe be used for industrial wastewater applications?
Yes, ductile iron pipe can be used for industrial wastewater applications. Ductile iron pipe is known for its strength, durability, and resistance to corrosion, making it suitable for various applications including wastewater systems. It can handle high-pressure and heavy-duty environments, making it ideal for industrial wastewater applications that may involve abrasive or corrosive substances. Additionally, ductile iron pipe can be easily installed and maintained, reducing the overall costs and ensuring long-term reliability. However, it is important to consider the specific requirements of the wastewater application and consult with professionals to determine the most suitable pipe material and design.
Q: How is ductile iron different from cast iron?
Ductile iron and cast iron are two iron alloys with varying compositions, properties, and uses. The primary distinction between the two lies in their microstructure and mechanical properties. Ductile iron, also known as spheroidal graphite iron or nodular cast iron, is a type of cast iron that undergoes an extra treatment process to enhance its strength and ductility. This is achieved by adding small amounts of magnesium to the molten iron during casting, resulting in the formation of graphite nodules throughout the material. These nodules act as stress raisers, preventing crack propagation and making ductile iron more resistant to fractures and more flexible compared to cast iron. In contrast, cast iron is an iron alloy with a higher carbon content than ductile iron. This higher carbon content leads to the formation of graphite flakes within the material, giving cast iron its characteristic brittleness. Due to its brittleness, cast iron is more prone to cracking and less flexible than ductile iron. However, cast iron exhibits excellent compressive strength and is highly resistant to wear and abrasion, making it suitable for applications where strength and durability are crucial, such as engine blocks, pipes, and manhole covers. Another difference between ductile iron and cast iron can be observed in their machinability. Ductile iron is generally easier to machine due to its lower carbon content and the presence of graphite nodules, which act as lubricants during the cutting process. On the other hand, the presence of graphite flakes in cast iron can cause tool wear and result in a poor surface finish during machining. In summary, ductile iron and cast iron differ in their microstructure, mechanical properties, and applications. Ductile iron offers improved ductility and fracture resistance, making it suitable for applications that require flexibility and impact resistance. Cast iron, with its higher carbon content and graphite flakes, provides excellent compressive strength and wear resistance, making it ideal for applications that demand strength and durability.
Q: Ductile iron pipe is how many years warranty
Ductile iron pipe warranty is unlimited.
Q: Are there any specific standards or specifications for ductile iron pipes?
Yes, there are specific standards and specifications for ductile iron pipes. The most widely recognized standards for ductile iron pipes include ISO 2531, EN 545, and ASTM A536. These standards outline the requirements for the material composition, physical properties, dimensions, and testing methods of ductile iron pipes. Additionally, different countries or regions may have their own specific standards or specifications for ductile iron pipes.
Q: How do ductile iron pipes perform in earthquake-induced ground movements?
Ductile iron pipes perform well in earthquake-induced ground movements due to their inherent strength and flexibility. The material's ductility allows it to withstand ground shaking, ground settlement, and other dynamic forces during an earthquake. This flexibility helps prevent the pipes from fracturing or bursting, minimizing the risk of water or sewage leaks. Additionally, ductile iron pipes are designed to accommodate ground movements by using joints that can expand and contract, ensuring their stability and preventing damage.
Q: What is the average cost of ductile iron pipe?
The average cost of ductile iron pipe can vary depending on several factors such as the diameter, length, and thickness of the pipe, as well as the supplier and location. On average, however, ductile iron pipe can range from approximately $40 to $200 per linear foot. It is important to note that these prices are estimates and can fluctuate based on market conditions and other variables. It is recommended to contact local suppliers or distributors for specific pricing information tailored to your project requirements.
Q: Are ductile iron pipes resistant to environmental stress cracking?
Indeed, environmental stress cracking is not a concern for ductile iron pipes. Ductile iron, a form of cast iron that has been infused with small amounts of magnesium for enhanced strength and ductility, possesses this advantageous quality. Consequently, these pipes exhibit exceptional resistance to cracking and harm caused by environmental stress factors like temperature fluctuations, soil shifting, and corrosive elements present in the surrounding environment. Moreover, the inherent robustness and adaptability of ductile iron enable it to endure substantial external pressure and stress without succumbing to cracking or failure. Ultimately, ductile iron pipes are a dependable and long-lasting option for various purposes, such as the transportation of water and wastewater, thanks to their ability to withstand environmental stress cracking.
Q: How are ductile iron pipes connected together?
Ductile iron pipes are typically connected together using a variety of methods, depending on the specific application and requirements. The most common method of connecting ductile iron pipes is through mechanical joint fittings. These fittings consist of a bell end on one pipe and a spigot end on the other, which are joined together using a rubber gasket and bolts or clamps. The rubber gasket provides a watertight seal, while the bolts or clamps secure the joint and prevent any movement or separation. Another method of connecting ductile iron pipes is through flanged joints. Flanged joints involve attaching a flange to the end of each pipe, which are then bolted together using bolts and nuts. This method is commonly used in larger diameter pipes or in situations where the pipes need to be easily disassembled. In addition to mechanical joint fittings and flanged joints, ductile iron pipes can also be connected using push-on or restrained joint fittings. Push-on joints utilize a rubber gasket that is pushed onto the spigot end of the pipe, creating a secure and watertight connection. Restrained joints, on the other hand, incorporate additional features such as welded-on collars or mechanical devices to prevent movement and provide added strength to the joint. Overall, the method of connecting ductile iron pipes together depends on factors such as pipe diameter, pressure requirements, and the specific application. It is important to follow the manufacturer's guidelines and industry standards to ensure proper installation and reliable performance of the connected pipes.

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